共查询到20条相似文献,搜索用时 15 毫秒
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《Oceanic Engineering, IEEE Journal of》1992,17(1):118-128
Techniques for determining modal attenuation coefficients and the compressional wave attenuation profile of the bottom in shallow water are presented. The input data consists of spatially well-sampled measurements of the pressure field versus range due to a monochromatic point source, which can be provided by either real or synthetic aperture horizontal arrays. Several methods are described for obtaining modal attenuation coefficients from the pressure field or its Hankel transform. The bottom attenuation profile is related to the modal attenuation coefficients through an integral equation that is solved using linear inverse theory. The methods are demonstrated using both noise-free and noisy synthetic data. The results of inverting experimental data from Nantucket Sound at 140 Hz and 220 Hz are presented. including the resolution and variance estimates of the inferred bottom attenuation profiles. Separation of the contributions of other attenuating mechanisms that can be confused with compressional wave attenuation (shear, rough surface scattering) is also discussed 相似文献
3.
Jinrong Wu Erchang Shang 《Oceanic Engineering, IEEE Journal of》2007,32(4):872-878
The integrated bottom scattering strength (ISS) and the modal backscattering matrix (MBSM) have been used to describe the bottom backscattering in shallow-water reverberation modeling, and both can be extracted from the reverberation data. The relationship between the ISS and the MBSM based on the same reverberation data in shallow water is discussed. It is shown that the ISS is an angular weighting average of the MBSM in mode space. The weighting factors are range-depth-frequency-dependent and also depend on the sound-speed profile (SSP) in the water column. Thus, the ISS has a complex variation. This complexity of the ISS causes it to be so variable that it provides little basic understanding of the scattering. Numerical examples are conducted to show this complexity. 相似文献
4.
In this study, to meet the need for accurate tidal prediction, the accuracy of global ocean tide models was assessed in the South China Sea (0°–26°N, 99°–121°E). Seven tide models, namely, DTU10, EOT11a, FES2014, GOT4.8, HAMTIDE12, OSU12 and TPXO8, were considered. The accuracy of eight major tidal constituents (i.e., Q1, O1, P1, K1, N2, M2, S2 and K2) were assessed for the shallow water and coastal areas based on the tidal constants derived from multi-mission satellite altimetry (TOPEX and Jason series) and tide gauge observations. The root mean square values of each constituent between satellite-derived tidal constants and tide models were found in the range of 0.72–1.90 cm in the deep ocean (depth>200 m) and 1.18–5.63 cm in shallow water area (depth<200 m). Large inter-model discrepancies were noted in the Strait of Malacca and the Taiwan Strait, which could be attributable to the complicated hydrodynamic systems and the paucity of high-quality satellite altimetry data. In coastal regions, an accuracy performance was investigated using tidal results from 37 tide gauge stations. The root sum square values were in the range of 9.35–19.11 cm, with the FES2014 model exhibiting slightly superior performance. 相似文献
5.
Reverberation in low-frequency active sonar systems operating in shallow water has often been observed to follow non-Rayleigh statistical distributions. McDaniel's model, generalized to allow noninteger valued parameters, has shown promise as being capable of accurately representing real data with a minimal parameterization. This paper first derives an exact analytical expression for the cumulative distribution function (CDF) of the generalized McDaniel model and then compares it with numerical inversion of the characteristic function. Both methods are seen to provide adequate and equivalent precision; however the characteristic function inversion method is significantly faster. The latter CDF evaluation technique is then applied to the analysis of simulated and real data to show that, when minimal data are available, McDaniel's model can more accurately represent a wide variety of non-Rayleigh reverberation than the K or Rayleigh mixture models. This result arises from the generality of McDaniel's model with respect to the K-distribution (i.e., the K-distribution Pfa estimate can be dominated by model mismatch error) and to its compact parameterization with respect to the Rayleigh mixture (i.e., the Rayleigh mixture model Pfa estimate is usually dominated by parameter estimation error) 相似文献
6.
《Oceanic Engineering, IEEE Journal of》2004,29(4):1045-1049
Based on the Wentzel-Kramer-Brillouin modal condition, the phase shift of the bottom reflection coefficient can be extracted. The required input data for this inversion is the modal wavenumber. In this paper, the amount of phase shift of the bottom-reflection coefficient is estimated from the 2001 Asian Sea International Acoustic Experiment data in the East China Sea, in the frequency range of 100-200 Hz. Modal wavenumbers are estimated from using the cross-spectrum density matrix (CSDM) of reverberation data and a mode-shooting method. The error associated with the estimated phase shift is also discussed. 相似文献
7.
关于黄海的潮混合和浅水锋现象,中国和韩国的学者已有一些报道(赵保仁,1987a,b;赵保仁等,1992;Lie,H-J.,1989)。卫星图片和有关水文观测资料表明,夏季,黄海的浅水锋主要分布在苏北浅滩外侧、山东半岛的成山角一石岛近海、渤海海峡、西朝鲜湾和江华湾湾口附近及朝鲜半岛西南部近海。
为了深入了解黄海苏北浅滩外侧浅水锋的分布和水文结构,我们于1990年7月29日至8月1日对该区域进行了一次水文和水化学的专项调査。本文根据这次调查所得的水文资料,对苏北浅滩外侧的海面冷水和浅水锋的分布特征以及锋区的环流结构进行简要论述。
苏北近海的浅水锋常出现在苏北浅滩外侧的陡坡附近(赵保仁,1987a)。本次调查在这一区域设了5个断面,32个大面站和1个连续站。锋区附近的最小站距约4海里(5′经距)左右。调査区域的水深分布和站位如图1所示。这一海区的地形分布特点是海底坡度较大,34°10′N以北海底陡坡在30-40m等深线之间,34°10′N线以南海底陡坡在20-30m等深线之间,陡坡处坡度达4×10-3左右。此外,在122°10''E线附近,还有一向北伸展的沙脊。观测结果表明,苏北浅滩外侧浅水锋现象与地形特征关系密切。 相似文献
8.
海南琼北活火山作为华南沿海重要的第四纪火山, 一直受到国内外学者的广泛关注, 目前对该火山的形成演化已开展了大量深部地质结构的研究, 但对其表层地质结构特征仍然缺乏详细了解。水平-垂直频谱比法(简称H/V方法)已被广泛应用于浅表层地质结构的研究, 本文基于35个便携式微功耗地震仪组成的流动台阵观测数据, 采用经典全波场H/V(full)和瑞利波椭圆率H/V(Ray)分析方法, 获得了琼北火山区H/V曲线峰值频率(F0)和放大倍数(A0)的空间变化特征。琼北火山区H/V曲线峰值频率变化强烈, 以长流-仙沟断裂为界, 断裂西南侧很难从H/V曲线中获取清晰的F0和A0, 而断裂东北侧则存在明显的F0和A0。结合已有地质资料, 本文认为长流-仙沟断裂西南侧处于凹陷区, 其浅表层火山岩未发生明显的风化作用, 而东北侧位于隆起区域, 地表火山岩受到了比较严重的风化作用。这一研究结果表明, H/V方法可反映表层火山岩的风化状态, 火山岩出露场地H/V曲线的峰值频率和放大倍数随风化作用程度的增强而表现得更加明显。本研究为琼北火山区浅表火山岩风化状态和地震危险性评估提供了重要的信息支撑。 相似文献
9.
Qiu Xinfang 《海洋学报(英文版)》1991,10(2):271-280
By using the expressions for the maximum absorption per wavelength (αλ),and the relaxation frequency fr of the boric acid relaxation derived previously by the author and employing the related oceanographic literatures, the effects of pressure, temperature, pH and salinity on (αλ)r and ∫r of the boric acid relaxation in sea water have been estimated. Results show that ( αλ), not only increases with pH but also increases approximately linearly with pressure and temperature, and is nearly proportional to the 1. 35 power of salinity. However, pressure, pH and salinity have negligible effect on ∫r; therefore, ∫r, can be approximately expressed as a function of temperature only. Comparisons of the predicted with the measured ( αλ)r and ∫r in different ocean areas are given. 相似文献
10.
The nonlinear interactions of waves with a double-peaked power spectrum have been studied in shallow water.The starting point is the prototypical equation for nonlinear unidirectional waves in shallow water,i.e.the Korteweg de Vries equation.By means of a multiple-scale technique two defocusing coupled Nonlinear Schrdinger equations are derived.It is found analytically that plane wave solutions of such a system are unstable for small perturbations,showing that the existence of a new energy exchange mechanism which can influence the behavior of ocean waves in shallow water. 相似文献
11.
Hydroelastic analysis of pontoon-type circular VLFS with an attached submerged plate 总被引:2,自引:0,他引:2
This paper is concerned with the hydroelastic analysis of a pontoon-type, circular, very large floating structure (VLFS) with a horizontal submerged annular plate attached around its perimeter. The coupled fluid–structure interaction problem may be solved by using the modal expansion method in the frequency domain. It involves, firstly, the decomposition of the deflection of a circular Mindlin plate with free edges into vibration modes that are obtained analytically. Then the hydrodynamic diffraction and radiation forces are evaluated by using the eigenfunction expansion matching method which can also be done in an exact manner. The hydroelastic equation of motion is solved by the Rayleigh–Ritz method for the modal amplitudes, and then the modal responses are summed up to obtain the total response. The effectiveness of the attached submerged annular plate in reducing the motion of VLFS has been confirmed by the analysis. 相似文献
12.
Shallow water depth retrieval from space-borne SAR imagery 总被引:1,自引:1,他引:0
Kaiguo Fan Weigen Huang Hui Lin Jiayi Pan Bin Fu Yanzhen Gu 《Journal of Oceanography》2011,67(4):405-413
Based on shallow water bathymetry synthetic aperture radar (SAR) imaging mechanism and the microwave scattering imaging model
for oceanic surface features, we developed a new method for shallow water depth retrieval from space-borne SAR images. The
first guess of surface currents and winds are estimated from the normalized radar crossing section (NRCS) profile of shallow
water bathymetry SAR imagery, according to the linear theory and geophysical model function. The NRCS profile is then simulated
by the microwave scattering imaging model. Both the surface currents and winds are adjusted by using the dichotomy method
step by step to make the M4S-simulated NRCS profiles approach those observed by SAR. Then, the surface currents and the wind
speeds are retrieved when a best fit between simulated signals and the SAR image appears. Finally, water depths are derived
using the Navier–Stokes equation and finite difference method with the best estimated currents and the surface winds. The
method is tested on two SAR images of the Taiwan Shoal. Results show that the simulated shallow water NRCS profile is in good
agreement with those measured by SAR with the correlation coefficient as high as 85%. In addition, when water depths retrieved
from the SAR image are compared with in situ measurements, both the root mean square and relative error are less than 3.0 m
and 6.5%, respectively, indicating that SAR images are useful for shallow water depth retrieval and suggesting that the proposed
method in this paper is convergent and applicable. 相似文献
13.
Remote sensing bathymetry inversion can quickly obtain water depth data of large areas, but this process relies on a large number of in-situ depth data points. USV-based (Unmanned Surface Vehicle) technique can obtain the bathymetry data of shallow water where ordinary ships are inaccessible, but this technique is inefficient and generally only data along survey line can be collected. The combination of USV and high-resolution remote sensing provides a new solution for water depth surveying and mapping around an island. This paper focuses on the key techniques, using USV sounding data and GeoEye-1 multispectral remote sensing images covering the region of Wuzhizhou island in the experiment. The results show that the MAE (Mean Absolute Error) of USV sounding is 0.25 m, while the MRE (Mean Relative Error) is 1.41%, and the MRE of remote sensing bathymetry aided by USV sounding can be controlled within 20%. Errors are mainly from areas shallower than 5 m, and are also affected by the USV sounding position accuracy. It shows that it is feasible to combine the USV sounding and high-resolution remote sensing bathymetry, and this technique has broad application prospects in the field of bathymetry in large shallow areas. 相似文献
14.
A model-based approach is developed to solve an adaptive ocean-acoustic signal-processing problem. Model-based signal processing is a well-defined methodology enabling the inclusion of propagation models, measurement models, and noise models into sophisticated processing algorithms. Here, we investigate the design of a so-called model-based identifier (MBID) for a general nonlinear state-space structure and apply it to a shallow water ocean-acoustic problem characterized by the normal-mode model. In this problem, we assume that the structure of the model is known and we show how this parameter-adaptive processor can be configured to jointly estimate both the modal functions and the horizontal wave numbers directly from the measured pressure-field and sound speed. We first design the model-based identifier using a model developed from a shallow-water ocean experiment and then apply it to a corresponding set of experimental data demonstrating the feasibility of this approach. It is also shown that one of the benefits of this adaptive approach is a solution to the so-called “mismatch” problem in matched-field processing (MFP) 相似文献
15.
浮标测量的光学数据时间序列长、分辨率高, 能可靠地测量快速变化的漫射衰减系数(Kd)。东海赤潮高发区水体中的浮游植物生物量及悬浮泥沙含量存在较大的变化, 光学性质复杂。文章利用2013年9月至2014年1月的海洋光学浮标数据, 获得了该海域水体的表观光学特性, 基于Kd(490)与遥感反射比[Rrs(λ)]的相关关系建立了Kd(490)的经验算法, 并与已有7种反演算法进行了比较。结果表明, 该海域的Kd(λ)及Rrs(λ)具有显著的Ⅱ类水体光谱特征, 其中, Kd(490)的范围为0.01~4.31m-1, 水体的浑浊程度变化大。Kd(490)与Rrs比值的相关性较好, 据此建立了以Rrs(650)/Rrs(510)、Rrs(555)/Rrs(510)作为自变量的Kd(490)双比值经验算法。将新建算法反演获得的Kd(490)与实测Kd(490)相比, 均方根误差、平均相对误差百分比和线性回归的决定系数分别为0.27m-1、27.08%和0.77, 优于其他7种算法。算法精度的提高源于新建算法选择的Rrs能充分反映水体信息, 并适应水体组分的变化, 可为东海赤潮高发区Kd(490)的反演提供较好的选择, 并为海洋光学浮标在水体环境监测中的应用提供示例。 相似文献
16.
Development of efficient global damage detection techniques for offshore structures is of great importance. The present paper applies the iterative modal strain energy (IMSE) method to locate and quantify the damage for three dimensional frame structures, when limited, spatially incomplete modal data are available. One theoretical development is a new procedure to directly incorporate the spatially-incomplete mode shapes in the algorithm, where slave degrees of freedom iterative updating procedure (SDUP) is developed for evaluating the damage indicator and damage severity. The merits of this new method are that both the modal frequencies and spatially incomplete mode shapes can be used. Also, the modal frequencies do not need to pair the mode shapes one by one. To demonstrate the feasibility and effectiveness of the developed algorithm, numerical studies are conducted for a 3D offshore platform based on data generated from finite element models. Numerical results demonstrate that the present method is effective for the damage assessment of a 3D frame structures when limited, spatially incomplete modal data are available. After considering more practical factors, it is expected to be more applicable in structural damage assessment. 相似文献
17.
Based on historical wind fields in the Bohai Sea,a sequence of annual extremal wave heightsis produced with numerical wave models for deep-water and shallow water.The design wave heights withdifferent return periods for the nearest deep-water point and for the shallow water point are estimated onthe basis of P-Ⅲ type,Weibull distribution,and Gumbel distribution;and the corresponding values for theshallow water point are also estimated based on the HISWA model with the input of design wave heightsfor the nearest deep-water point.Comparisons between design wave heights for the shallow water point es-timated on the basis of both distribution functions are HISWA model show that the results from differentdistribution functions scatter considerably,and influenced strongly by return periods;however,the resultsfrom the HISWA model are convergent,that is,the influence of the design wave heights estimated with dif-ferent distribution functions for deep water is weakened,and the estimated values decrease for long 相似文献
18.
On the basis of the polynomial approximation of the dispersion relation for gravity waves, a generalized version of Berkhoff's model for a non-stationary case has been obtained. The standard problem of the transition of a wave from deep water into shallow water in a basin with a slowly varying topography is applied to study analytically Berkhoff's model polynomial approximations. It has been demonstrated that all qualitative characteristics of wave transformation can be described in the framework of this model.Translated by V. Puchkin. 相似文献
19.
David F. Paskausky 《Journal of Oceanography》1978,34(5):233-236
The diffusive temperature equation is solved analytically and numerically for a simple oceanic case. Errors introduced by various numerical schemes are determined by comparison with the analytical solution. Less error is introduced by the standard differencing scheme than by the DuFort-Frankel scheme. A variable grid scheme produces the least error and the greatest savings in computer core and time. Usefulness of various numerical schemes is situation dependent. Any numerical forecasting technique using initialization data and frequent data updating will need to be verified with adequate field data before it can be considered reliable and used to predict short term (1 to 7 days) events in the ocean. 相似文献
20.
Analysis of a craft with two degrees of freedom (2DOF) consumes time more than simulation of a craft with a fixed trim condition; therefore in most of the previous researches fixed trim condition is taken into account to analyze the flow field around a craft in shallow water and head sea wave conditions. In this paper numerical simulation of Reynolds Average Naiver Stokes (RANS) equations are used to analyze the motion of DTMB 62 model 4667-1 planing vessel in calm water and head sea waves in both deep and shallow water with two degrees of freedom (heave and pitch). For this purpose, a finite volume ANSYS-FLUENT code is used to solve the Navier-Stokes equations for the simulation of the flow field around the vessel. In addition, an explicit VOF scheme and SST k-ω model is used with dynamic mesh scheme to capture the interface of a two-phase flow and to model the turbulence respectively in the 2DOF model.Regarding the results, reducing the wavelength and also the depth of the water can increase the drag force. Also comparing the results of a fixed trim vessel with the results of a free to sink and trim one in calm water shows a difference of approximately 50% in the drag force in shallow water. 相似文献